Revisiting the empirical particle‐fluid coupling model used in DEM‐CFD by high‐resolution DEM‐LBM‐IMB simulations: A 2D perspective-Reference-Cited by-同舟云学术

Revisiting the empirical particle‐fluid coupling model used in DEM‐CFD by high‐resolution DEM‐LBM‐IMB simulations: A 2D perspective

Published:2023-01-29 Issue:5 Volume:47 Page:862-879
ISSN:0363-9061
Container-title:International Journal for Numerical and Analytical Methods in Geomechanics
language:en
Short-container-title:Num Anal Meth Geomechanics

Author:

Zeng Zhixiong¹²^ORCID,Fu Jinlong³^ORCID,Feng Y. T.³,Wang Min⁴^ORCID

Affiliation:

1. Department of Civil and Environmental Engineering The Hong Kong University of Science and Technology China

2. Laboratoire Navier/CERMES Ecole des Ponts ParisTech Paris France

3. Zienkiewicz Centre for Computational Engineering Faculty of Science and Engineering Swansea University UK

4. Fluid Dynamics and Solid Mechanics Group Theoretical Division, Los Alamos National Laboratory Los Alamos New Mexico USA

Abstract

AbstractThe work investigates the applicability of the unresolved Computational Fluid Dynamics and Discrete Element Method (CFDDEM) technique based on empirical equations for fluid‐particle coupling. We first carry out a series of representative volume element simulations using the high‐resolution particle‐resolved Lattice Boltzmann method and Discrete Element Method (LBMDEM) coupled by an Immersed Moving Boundary (IMB) scheme. Then, we compare the results obtained by both LBMDEM and empirical equations used in unresolved CFDDEM with analytical solutions. It is found that the existing empirical equations used in solving fluid‐particle interactions in 2D CFDDEM fail to accurately calculate the hydrodynamic force applied to solid particles. The underlying reason is that the existing empirical models are obtained based on 3D experimental results and thus are not applicable to 2D problems. Based on the simulation results, a new drag coefficient model is then proposed. The estimated drag forces using the new model are compared favourably with the simulated ones, indicating the good performance of the proposed model.

Publisher

Wiley

Subject

Mechanics of Materials,Geotechnical Engineering and Engineering Geology,General Materials Science,Computational Mechanics

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/nag.3496

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